CN105682416A - Protection apparatus with radiating function - Google Patents

Abstract

The invention discloses a protection apparatus with a radiating function. The protection apparatus is used for protecting an electronic apparatus. The protection apparatus comprises a carrier and a flexible heat conducting unit, wherein the carrier is used for butting or accommodating the electronic apparatus, and the carrier is provided with at least one edge; the flexible heat conducting unit is arranged on one of the edges; the flexible heat conducting unit is provided with a first convex extending part extending to an inner surface of the carrier and combined with the inner surface, and a second convex extending part far from the carrier and connected with a cover sheet; the first convex extending part of the flexible heat conducting unit is in direct or indirect contact with a heat source of the electronic apparatus; and heat of the heat source is transferred from the carrier to the cover sheet through the flexible heat conducting unit.

Description

The protection device of tool heat radiation

Technical field

The present invention relates to a kind of protection device, particularly relate to a kind of protection device having heat radiation.

Background technology

The demand of mancarried device Fast Growth in recent years, the quantity of smart mobile phone and tablet PC exceeds well over desktop PC and mobile computer, and the development of intelligent mobile phone is more grown up with quick paces. For example, owing to intelligent mobile phone is compact and the development trend of functional promotion so that cell-phone heating density is continuously increased, and also makes heat dissipation problem come into one's own. Portable product, due to the factor such as volume and weight, heat dissipation design can only consider passive heat radiation. Element produce heat need to by conduction pattern pass to into system shell, recycling free convection and heat loss through radiation mode heat is passed to environment. For mancarried device, affecting performance owing to screen can be subject to temperature, so element heating does not pass to screen as far as possible, therefore heat is delivered to bottom shell by the inside conduction of heat design of portable product.

Especially when portable product is when operation, the surface temperature distribution of bottom shell is uneven, particularly in higher element such as CPU and PA of heat generation density or the position such as GDU or battery, forms hot localised points and causes temperature to rise. Except heat dissipation problem, owing to needing skin-proximal when using, higher temperature Long Term Contact skin can cause burns.

In addition, when utilizing mobile phone communication, mobile phone persistent fever can cause ear's temperature to rise, human body is caused discomfort, therefore how the heat on the bottom shell surface of portable product is effectively transmitted to environment, makes heat excessively not concentrate on the bottom shell surface of portable product, improve and produce focus (HotSpot) on bottom shell surface, reduce the problem that local temperature rise is too high, be the required direction made great efforts of industry.

Summary of the invention

Therefore, for effectively solving the problems referred to above, the main purpose of the present invention, for providing a kind of protection device having heat radiation, is transferred into the conduction of heat of a carrier to the external position of this carrier by a reelability heat-conducting unit and dispels the heat.

Another syllabus of the present invention, it is in that to provide a kind of reelability heat-conducting unit to be connected between a carrier and a cover plate, by this reelability heat-conducting unit, the heat of this carrier is delivered to this cover plate antipyretic.

Another syllabus of the present invention, it is in that providing a kind of increases heat dissipation path the outside of an electronic installation, improves the protection device of the tool heat radiation of the surface heat concentration problem of the bottom shell of electronic installation.

Another syllabus of the present invention, it is in that to provide the localized hyperthermia on a kind of drain pan surface protecting device can reduce electronic installation having heat radiation.

For reaching above-mentioned purpose, the present invention provides a kind of protection device having heat radiation, is used for protecting an electronic installation, and this protection heat abstractor includes: a carrier, is used for docking or this electronic installation accommodating, and has one first inner face in the face of this electronic installation and multiple edge; One reelability heat-conducting unit, it is arranged on a wherein edge of this carrier, its contrary two ends have one first convex extension part and one second convex extension part, this first convex extension part projects on this first inner face of this carrier and combines, this second convex extension part is away from this carrier, and wherein this first convex extension part directly or indirectly contacts at least one thermal source of this electronic installation.

Implementing one, this first convex extension part has the first inner face of one first contact surface this carrier contrary and towards this electronic installation.

Implementing one, this first contact surface of this first convex extension part is the thermal source contacting this electronic installation.

Implement one, this carrier is provided with a carrier heat conducting element and contacts at least one thermal source of this electronic installation, and there is one first contact jaw and one second contact jaw, this first contact surface of this first convex extension part of any of which end in contact of this first contact jaw and this second contact jaw.

Implementing one, this reelability heat-conducting unit is a graphite heat-conducting fin or a metal forming graphite heat-conducting fin.

Implementing one, this metal forming graphite heat-conducting fin includes at least one of which metal forming storehouse in conjunction with at least one of which graphite heat-conducting fin.

Implementing one, the material of this metal forming includes gold or silver or copper or aluminum or its combination.

Implementing one, this first contact surface is this metal forming.

Implementing one, this reelability heat-conducting unit is one can the slimming heat pipe of flexing.

One implement, the second convex extension part of this reelability heat-conducting unit for extending to form a cover plate, the start that this carrier relative of this cover plate operability covers or raises.

Implementing one, this cover plate is a graphite heat-conducting fin or a metal forming graphite heat-conducting fin.

Implementing one, this second convex extension part of this reelability heat-conducting unit connects a cover plate, the start that this carrier relative of this cover plate operability covers or raises.

Implementing one, this cover plate has one second inner face, and this second convex extension part is project to this second inner face of this cover plate and combine, and this second convex extension part has this second inner face of one second contact surface this cover plate contrary.

Implementing one, this cover plate is provided with a cover plate heat conducting element, and having one the 3rd contact jaw and one the 4th contact jaw, the 3rd contact jaw and the 4th contact jaw any of which end is this second contact surface contacting this reelability heat-conducting unit.

Implementing one, this second contact surface of this reelability heat-conducting unit is metal forming.

Implementing one, this carrier is the shell on the back for this electronic installation, and the periphery of this first inner face of this carrier is provided with multiple buckle portion.

Implementing one, the periphery of the first inner face of this carrier upwardly extends formation one safe edge, and this safe edge has a free end and is bent to form a buckle portion inwardly, and this first inner face and this safe edge jointly define an accommodation space with this buckle portion and hold this electronic installation.

The present invention additionally provides a kind of protection device having heat radiation, be used for protecting an electronic installation, this electronic installation has a thermal source, and this protection heat abstractor includes: a carrier, has one first inner face for docking or this electronic installation accommodating; One cover plate, has one second inner face; One reelability heat-conducting unit, between this cover plate and this carrier, and connects this cover plate and this carrier, and this reelability unit has the first inner face of one first convex extension part and this carrier and combines, and one second convex extension part connects this cover plate; Wherein this reelability heat-conducting unit is support the start that this carrier relative of this cover plate operability covers or raises; And the first convex extension part of wherein this reelability heat-conducting unit is the thermal source directly or indirectly contacting this electronic installation, to make the heat that this thermal source produces be delivered to this cover plate from this carrier by this reelability heat-conducting unit.

Accompanying drawing explanation

Fig. 1 is the perspective exploded view that the present invention first preferably implements;

Fig. 2 is the solid combination schematic diagram that the present invention first preferably implements;

Fig. 3 A is the cross-sectional schematic of the first aspect of the reelability heat-conducting unit preferably implemented of the present invention first and cover plate;

Fig. 3 B is the cross-sectional schematic of the reelability heat-conducting unit preferably implemented of the present invention first and cover plate the second aspect;

Fig. 3 C is the cross-sectional schematic of the reelability heat-conducting unit preferably implemented of the present invention first and the third aspect of cover plate;

Fig. 3 D is the cross-sectional schematic of the reelability heat-conducting unit preferably implemented of the present invention first and the 4th kind of aspect of cover plate;

Fig. 3 E is the cross-sectional schematic of the reelability heat-conducting unit preferably implemented of the present invention first and the 5th kind of aspect of cover plate;

Fig. 4 A is the schematic diagram before the carrier that the present invention first preferably implements docks with electronic installation;

Fig. 4 B is the schematic diagram after the carrier that the present invention first preferably implements docks with electronic installation;

Fig. 4 C is another aspect schematic diagram after the carrier that the present invention first preferably implements docks with electronic installation;

Fig. 5 A is the perspective exploded view that the present invention second preferably implements;

Fig. 5 B is the solid combination schematic diagram that the present invention second preferably implements;

Fig. 5 C is another aspect schematic diagram of carrier heat dissipation element that the present invention second preferably implements;

Fig. 5 D is another aspect schematic diagram of carrier heat dissipation element that the present invention second preferably implements;

Fig. 6 is the schematic diagram that the present invention the 3rd preferably implements;

Fig. 7 is the schematic diagram that the present invention the 4th preferably implements;

Fig. 8 A is the schematic perspective view before the carrier that the present invention the 5th preferably implements holds electronic installation;

Fig. 8 B is the schematic perspective view after the carrier that the present invention the 5th preferably implements holds electronic installation.

Symbol description

Carrier 10

First inner face 11

First edge 12a

Second edge 12b

3rd edge 12c

4th edge 12d

Buckle portion 13

Safe edge 14

Buckle portion 141

Accommodation space 15

Carrier heat conducting element 16

First contact jaw 161

Second contact jaw 162

Temperature-uniforming plate 16a

Sheet metal (paper tinsel)/graphite heat-conducting fin 16b

Reelability heat-conducting unit 20

Graphite heat-conducting fin 201

Protective layer 202

Metal forming 203

First convex extension part 21

First contact surface 211

Second convex extension part 22

Cover plate 23

Second inner face 231

Electronic installation 30

Fore shell 31

Thermal source 32

Touch-control display screen 33

Cover plate 43

Second inner face 431

First edge 432a

Second edge 432b

3rd edge 432c

4th edge 432d

Cover plate heat conducting element 46

3rd contact jaw 461

4th contact jaw 462

Electronic installation 50

Fore shell 51

Shell on the back 52

Detailed description of the invention

Below with reference to drawing, embodiments of the invention of explaining in detail:

The above-mentioned purpose of the present invention and structure thereof and characteristic functionally, will be explained according to the preferred embodiment of institute's accompanying drawing.

Referring to Fig. 1 is the perspective exploded view that the present invention first preferably implements; Fig. 2 is the solid combination schematic diagram that the present invention first preferably implements. The present invention includes carrier 10 and a reelability heat-conducting unit 20 as shown in the figure, this carrier 10 is at the shell on the back being originally embodied as an electronic installation, there are one first inner face 11 and four edges, respectively the first edge 12a, the second edge 12b, the 3rd edge 12c and the 4th edge 12d, wherein this second edge 12b the 4th edge 12d relatively, and defining a width of this carrier 10, such first to fourth edge 12a～12d is respectively equipped with each and every one buckle portions 13 many fore shell for snapping one electronic installation. This reelability heat-conducting unit 20 is arranged on a wherein edge 12d of this carrier, and it has respectively one first convex extension part 21 and one second convex extension part 22, contrary two ends.This first convex extension part 21 is the first inner face 11 projecting to this carrier 10, and such as but utilize ultrasound and this first inner face 11 of being not intended to combine, or utilize and combine with this first inner face 11 during this carrier 10 molding. This first convex extension part 21 has the first inner face 11 of one first contact surface 211 this carrier 10 contrary. The protruding length of this first convex extension part 21 optional is can arrange according to the heat source position of different electronic installations, for instance this first convex extension part 21 can project to the length of the width 1/3 or 2/3 or 1/2 of this carrier 10 from the 4th edge 12d toward the direction of the second edge 12b. This second convex extension part 22 for away from this carrier 10 and extend to form a cover plate 23 there is an inner surface 231, the start that this carrier 10 relative of this cover plate 23 operability covers or raises.

Shown in Fig. 3 A; it is a graphite heat-conducting fin 201 at a cover plate 23 implementing this reelability heat-conducting unit 20 and extension thereof; and coating one protective layer 202 outside the two of this graphite heat-conducting fin 201; this protective layer 202 such as but is not limited to natural/synthetic leather or polymer (such as plastic cement or rubber or silica gel) etc., is used for protecting this graphite heat-conducting fin 201. Current graphite heat-conducting fin 201 comprises native graphite conducting strip and Delanium conducting strip, and the pyroconductivity that especially Delanium conducting strip adopts is much better than the 298W/m.k of native graphite conducting strip 200～300W/m.k and fine copper and the 238W/m.k of fine aluminium up to 1600W/m.k. Moreover the density of material of graphite heat-conducting fin 201 is about 1.9g/cm3, lighter by 25% than aluminum in weight, lighter by 75% than copper, there is flexibility in addition, can be bent and the characteristic such as low thermal resistance. Realize in this reelability heat-conducting unit 20 high-termal conductivity and the characteristic that can be bent by this graphite heat-conducting fin 201.

Implement as shown in Fig. 3 B to 3E at another; this reelability heat-conducting unit 20 and the cover plate 23 extended thereof are that a metal forming graphite heat-conducting fin includes at least one of which metal forming 203 storehouse in conjunction with at least one of which graphite heat-conducting fin 201; the material of this metal forming 203 includes gold or silver or copper or aluminum or its combination; such as, shown in Fig. 3 B, this metal forming 203 such as Copper Foil is in the both sides up and down of this graphite heat-conducting fin 201, is coated with protective layer 202 in the outside of metal forming 203. Additionally such as shown in Fig. 3 C, this metal forming 203 is such as that storehouse is combined in the upper of this graphite heat-conducting fin 201 for Copper Foil or aluminium foil, and is coated with protective layer 202 in the outside of metal forming 203 and graphite heat-conducting fin 201. Additionally such as shown in Fig. 3 D, this metal forming 203 is such as that storehouse is combined in upside and the downside of this graphite heat-conducting fin 201 respectively for Copper Foil and aluminium foil, and is coated with protective layer 202 in the outside of metal forming 203. Furthermore as shown in FIGURE 3 E; this metal forming graphite heat-conducting fin can also utilize multiple layers of graphite heat-conducting fin 201 storehouse rise then at the storehouse respectively of both sides up and down of the graphite heat-conducting fin 201 of such storehouse in conjunction with a metal forming 202, and be coated with protective layer 202 in the outside of metal forming 203. By high intensity and the heat conductivity of this metal forming 202 and the high-termal conductivity of this graphite heat-conducting fin 201 and then realize this reelability heat-conducting unit 20 and have the characteristic of resistance to flexing and repeated flex and high-termal conductivity.

Furthermore, in the enforcement that another is possible, this reelability heat-conducting unit 20 also can be can flexing (soft) slimming heat pipe, utilize this can reach this reelability heat-conducting unit 20 and have the characteristic of resistance to flexing and repeated flex and high-termal conductivity by flexing slimming heat pipe.

Continue referring to shown in Fig. 4 A and 4B, and see also shown in Fig. 1 or 2, first contact surface 211 of this first convex extension part 21 is preferably as this metal forming 203, it is embodied as such as this outermost protective layer of reelability heat-conducting unit 20 202 and is not coated on this first contact surface 211 so that this metal forming 203 is exposed out, one electronic installation 30 (such as intelligent mobile phone or tablet PC) has a fore shell 31 and a touch-control display screen 33 is positioned at this fore shell 31, the back of this electronic installation 30 is the first inner face 11 in the face of this carrier 10, and one thermal source 32 such as circuit board and electronic component thereon for being positioned at this back. implement this first convex extension part 21 one and cover this thermal source 32 toward the length protruded out in carrier 10 is just corresponding, and this thermal source 32 just corresponds to the first contact surface 211 (being shown in the right side at this back in this diagram) of this first convex extension part 21 in the position at the back of electronic installation 30.

When carrier 10 docks with this electronic installation 30, utilize the fore shell 31 of those buckle portion 13 these electronic installations 30 of snapping of such first to fourth edge 12a～12d, so that the thermal source 32 of this electronic installation 30 directly contacts the first contact surface 211 of this first convex extension part 21. And after carrier 10 docks with this electronic installation 30, this cover plate 23 corresponding can cover fore shell 31 and the touch-control display screen 33 of this electronic installation 30 or raised.

Shown in Fig. 4 C, when electronic installation 30 is in use (when such as conversing), raise the cover plate 23 of also this reelability heat-conducting unit 20 of opisthotonos, make the both sides contact environment of this cover plate 23, the thermal source 32 of electronic installation 30 directly contacts this reelability heat-conducting unit 20, and make the cover plate 23 that heat is formed toward this second convex extension part 22 by metal forming 203 and graphite heat-conducting fin 201 transmit by the first contact surface 211 of the first convex extension part 21 of this reelability heat-conducting unit 20, then by the air heat exchange in cover plate 23 and this environment to reach heat radiation purpose, thereby reduce the heat of carrier 10, and improve the thermal source 32 hot concentration problem on the surface of carrier 10.

It is the front elevational schematic that the present invention second preferably implements please continue to refer to Fig. 5 A, 5B, 5C, 5D. this enforcement is roughly the same with previous enforcement as shown in the figure, identical element uses identical symbol, the width place that the first convex extension part 21 of this reelability heat-conducting unit 20 is toward project to this carrier 10 in carrier 10 1/3 or 1/4 is implemented at this, the first inner face 11 at this carrier 10 is provided with a carrier heat conducting element 16, this carrier heat conducting element 16 has one first contact jaw 161 and overlaps on the first contact surface 211 of this first convex extension part 21, to contact the metal forming 203 of this first contact surface 211, this carrier heat conducting element 16 has one second contact jaw 162 away from this first contact jaw 161, this first contact jaw 161 and this second contact jaw 162 wherein one end are can the corresponding thermal source 32 (such as Fig. 4 A) contacting this electronic installation 30, it is delivered to the other end with the heat by this thermal source 32.

Being embodied as this second contact jaw 162 one is the thermal source 32 (Fig. 4 A) contacting this electronic installation 30, to make the heat of this thermal source 32 be delivered to the first contact jaw 161, then it is being delivered to the first contact surface 211 of the first convex extension part 21, and is dispelling the heat to this cover plate 23 through this reelability heat-conducting unit 20. This first convex extension part 21 is by this this thermal source 32 of carrier heat conducting element 16 mediate contact, reaches to be delivered to the heat of thermal source 32 cover plate 23 that second convex extension part 22 formed and dispels the heat.

(surpassing) thin type heat pipe that above-mentioned carrier heat conducting element 16 such as represents for Fig. 5 A and 5B, but it is not restricted to this, can be temperature-uniforming plate 16a or as shown in Figure 5 D for sheet metal (paper tinsel)/graphite heat-conducting fin 16b as shown in Figure 5 C, or above-mentioned combination in any.

It is illustrated in figure 6 the schematic diagram that the present invention the 3rd preferably implements, as shown in the figure, it is generally identical with the first enforcement, identical element represents with identical symbol, the different place of this enforcement is in that the second convex extension part 22 of this reelability heat-conducting unit 20 is for connecting a cover plate 43, the start that this carrier relative of this cover plate 43 operability covers or raises. This cover plate 43 has one second inner face 431 and four edges, respectively the first edge 432a, the second edge 432b, the 3rd edge 432c and the 4th edge 432d, wherein this second edge 432b the 4th edge 432d relatively, and define a width of this lid 43, this second convex extension part 22 is the second inner face 431 projecting to this cover plate 43 from the 4th edge 432d, and such as but utilize ultrasound and the second inner face 431 that are not intended to combine, this second convex extension part 22 has the second inner face 431 of one second contact surface 221 this cover plate 43 contrary. In the possible length (as shown in Figure 6) that this second convex extension part 22 of enforcement is the width 1/4 or 1/5 projecting to this cover plate 43 from the 4th edge 432d toward the direction of the second edge 432b. But in the enforcement that another is possible, this second convex extension part 22 is the second inner face 431 that can protrude out and cover this cover plate 43.

Be preferably metal forming 203 (such as Fig. 3 B to 3E) at possible this second contact surface 221 of enforcement, its specifically such as this outermost protective layer of reelability heat-conducting unit 20 202 be not coated on this second contact surface 211 so that this metal forming 203 is exposed out. One cover plate heat conducting element 46 has one the 3rd contact jaw 461 and one the 4th contact jaw 462,3rd contact jaw 461 and the 4th contact jaw 462 any of which end are the metal forming 203 of the second contact surface 221 of the second convex extension part 22 contacting this reelability heat-conducting unit 20, and the other end is then away from this second convex extension part 22. Represent that in this diagram the 4th contact jaw 462 of this cover plate heat conducting element 46 overlaps on this second contact surface 221, to contact the metal forming 203 of this second contact surface 221, the 3rd contact jaw 461 of this cover plate heat conducting element 46 extends toward the 4th edge 423d of this cover plate 43 away from this second contact surface 221.

The thermal source 32 (such as Fig. 4 A) of aforementioned electronic 30 is the second contact surface 221 that the first contact surface 211 of the first convex extension part 21 by this reelability heat-conducting unit 20 is delivered to the second convex extension part 22 by this reelability heat-conducting unit 20, then it is delivered to the 4th contact jaw 462 of this cover plate heat conducting element 46, then is delivered to the 3rd contact jaw 461 from the 4th contact jaw 462. Thereby reach that the heat of carrier 10 is delivered to cover plate 43 by this reelability heat-conducting unit 20 antipyretic.

It is illustrated in figure 7 the schematic diagram that the present invention the 4th preferably implements, as shown in the figure, it generally preferably implements identical with the 3rd, identical element represents with identical symbol, the different place of this enforcement is in that the first convex extension part 21 of this reelability heat-conducting unit 20 projects to the width place of 1/3 or the 1/4 of this carrier 10 in carrier 10, the first inner face 11 at this carrier 10 is provided with a carrier heat conducting element 16, this carrier heat conducting element 16 has one first contact jaw 161 and overlaps on the first contact surface 211 of this first convex extension part 21, to contact the metal forming 203 of this first contact surface 211, this carrier heat conducting element 16 has one second contact jaw 162 away from this first contact jaw 161, this first contact jaw 161 and this second contact jaw 162 wherein one end are can the corresponding thermal source 32 (such as Fig. 4 A) contacting this electronic installation 30, it is delivered to the other end with the heat by this thermal source 32.

Being embodied as this second contact jaw 162 one is the thermal source 32 (such as Fig. 4 A) contacting this electronic installation 30, to make the heat of this thermal source 32 be delivered to the first contact jaw 161, then it is being delivered to the first contact surface 211 of the first convex extension part 21, and the second convex extension part 22 of the second inner face 431 being positioned at cover plate 43 it is delivered to through this reelability heat-conducting unit 20, transfer heat to the 4th contact jaw 462 of cover plate heat conducting element 46 by the second contact surface 221 of the second convex extension part 22, be delivered to the 3rd contact jaw 461 from the 4th contact jaw 462. Thereby reach that the heat of carrier 10 is delivered to cover plate 43 by this reelability heat-conducting unit 20 antipyretic.

Preferably implement as Fig. 8 A and 8B show the present invention the 5th, it substantially preferably implements identical in first, identical element represents with same-sign, its different places are in that the first edge 12a of the first inner face 11 of this carrier 10, the second edge 12b, the 3rd edge 12c and the 4th edge 12d upwardly extend formation one safe edge 14, this safe edge 14 has a free end and is bent to form a buckle portion 141 inwardly, and this first inner face 11 and this safe edge 14 jointly define an accommodation space 15 with buckle portion 141 and hold an electronic installation 50 (such as intelligent mobile phone or tablet PC).

Electronic installation 50 in this enforcement includes fore shell 51 and a shell on the back 52, when electronic installation 50 is contained in the accommodation space 15 of this carrier 10, this buckle portion 141 button is solid on the surface of this fore shell 51, the surface of this shell on the back 52 is the first contact surface 211 of the first convex extension part 21 contacting this reelability heat-conducting unit 20, and the thermal source on shell on the back 52 surface is delivered to cover plate 23 by this reelability unit 20 and dispels the heat.

In sum, the present invention is transferred into the conduction of heat of carrier 10 to the cover plate 23 of the external position of this carrier 10 by reelability heat-conducting unit 20 and dispels the heat, heat dissipation path is increased as the outside of an electronic installation 30,50, to improve the surface heat concentration problem of the bottom shell of electronic installation 30,50, the problem reducing the localized hyperthermia on the bottom shell surface of electronic installation 30,50.

Although embodiment of the present invention are disclosed as above, but listed utilization that it is not restricted in description and embodiment, it can be applied to various applicable the field of the invention completely, for those skilled in the art, it is easily achieved other amendment, therefore, under the general concept limited without departing substantially from claim and equivalency range, the present invention is not limited to specific details and shown here as the legend with description.

Claims (19)

1. having a protection device for heat radiation, be used for protecting an electronic installation, this protection heat abstractor includes: a carrier, is used for docking or this electronic installation accommodating, and has one first inner face in the face of this electronic installation and multiple edge;

One reelability heat-conducting unit, it is arranged on a wherein edge of this carrier, its contrary two ends have one first convex extension part and one second convex extension part, this first convex extension part projects on this first inner face of this carrier and combines, this second convex extension part is away from this carrier, and wherein this first convex extension part directly or indirectly contacts at least one thermal source of this electronic installation.

2. the protection device of tool heat radiation as claimed in claim 1, wherein this first convex extension part has this first inner face of one first contact surface this carrier contrary and towards this electronic installation.

3. the protection device of tool heat radiation as claimed in claim 2, wherein this first contact surface of this first convex extension part contacts the thermal source of this electronic installation.

4. the protection device of tool heat radiation as claimed in claim 2; wherein this carrier is provided with a carrier heat conducting element and contacts at least one thermal source of this electronic installation; and there is one first contact jaw and one second contact jaw, this first contact surface of this first convex extension part of any of which end in contact of this first contact jaw and this second contact jaw.

5. the protection device of tool heat radiation as claimed in claim 2, wherein this reelability heat-conducting unit is a graphite heat-conducting fin or a metal forming graphite heat-conducting fin.

6. the protection device of tool heat radiation as claimed in claim 5, wherein this metal forming graphite heat-conducting fin includes at least one of which metal forming storehouse in conjunction with at least one of which graphite heat-conducting fin.

7. the protection device of tool heat radiation as claimed in claim 6, wherein the material of this metal forming includes gold or silver or copper or aluminum or its combination.

8. the protection device of tool heat radiation as claimed in claim 7, wherein this first contact surface is this metal forming.

9. the protection device of tool heat radiation as claimed in claim 2, wherein this reelability heat-conducting unit is one can the slimming heat pipe of flexing.

10. the protection device of the tool heat radiation as described in claim 3 or 4, wherein this second convex extension part of this reelability heat-conducting unit is for extending to form a cover plate, the start that this carrier relative of this cover plate operability covers or raises.

11. the protection device of tool heat radiation as claimed in claim 10, wherein this cover plate is a graphite heat-conducting fin or a metal forming graphite heat-conducting fin.

12. the protection device of tool heat radiation as claimed in claim 3, wherein this second convex extension part of this reelability heat-conducting unit connects a cover plate, the start that this carrier relative of this cover plate operability covers or raises.

13. the protection device of tool heat radiation as claimed in claim 4, wherein this second convex extension part of this reelability heat-conducting unit connects a cover plate, the start that this carrier relative of this cover plate operability covers or raises.

14. the protection device of tool heat radiation as claimed in claim 13; wherein this cover plate has one second inner face; this second convex extension part is project to this second inner face of this cover plate and combine, and this second convex extension part has this second inner face of one second contact surface this cover plate contrary.

15. the protection device of tool heat radiation as claimed in claim 14; wherein this cover plate be provided with a cover plate heat conducting element have one the 3rd contact jaw and one the 4th contact jaw, the 3rd contact jaw and the 4th contact jaw any of which end be contact this reelability heat-conducting unit this second contact surface.

16. the protection device of tool heat radiation as claimed in claim 15, wherein this second contact surface of this reelability heat-conducting unit is metal forming.

17. the protection device of tool heat radiation as claimed in claim 1, wherein this carrier is a shell on the back of this electronic installation, and the edge of this first inner face of this carrier is provided with multiple buckle portion.

18. the protection device of tool heat radiation as claimed in claim 1; wherein the periphery of this first inner face of this carrier upwardly extends formation one safe edge; this safe edge has a free end and is bent to form a buckle portion inwardly, and this first inner face and this safe edge jointly define an accommodation space with this buckle portion and hold this electronic installation.

19. have a protection device for heat radiation, being used for protecting an electronic installation, this electronic installation has a thermal source, and this protection heat abstractor includes:

One carrier, has one first inner face for docking or this electronic installation accommodating;

One cover plate, has one second inner face;

One reelability heat-conducting unit, between this cover plate and this carrier, and connects this cover plate and this carrier, and this reelability unit has this first inner face of one first convex extension part and this carrier and combines, and one second convex extension part connects this cover plate;

Wherein this reelability heat-conducting unit is support the start that this carrier relative of this cover plate operability covers or raises; And

Wherein this first convex extension part of this reelability heat-conducting unit directly or indirectly contacts the thermal source of this electronic installation, makes the heat that this thermal source produces be delivered to this cover plate from this carrier by this reelability heat-conducting unit.